Display Device, Driving Method Thereof, Terminal Device, and Display Panel

1. A display device, comprising: a plurality of pixel units each including at least pixels for displaying different images toward a plurality of directions; data lines for supplying display data to each of the pixels; pixel switches for transmitting display data signals from the data lines to the pixels; gate lines for controlling the pixel switches; and an optical element for distributing light emitted from each of the pixels configuring the pixel units towards different directions, wherein a neighboring pixel pair arranged with the gate line interposed therebetween is controlled by the gate line that is provided between those pixels, each of the pixels configuring the neighboring pixel pair is connected to the data line different from each other, and each of the neighboring pixel pairs neighboring to each other in an extending direction of the gate lines is connected to the gate line different from each other.

2. The display device as claimed in claim 1 , wherein, when arranging each of the pixels configuring the neighboring pixel pairs vertically in top and bottom with a common gate line interposed therebetween, there are arranged the neighboring pixel pairs each having an upper-side pixel connected to a left-side data line and the neighboring pixel pairs each having an upper-side pixel connected to a right-side data line.

3. The display device as claimed in claim 2 , wherein two kinds of the neighboring pixel pairs are in a line-symmetrical relation with respect to the extending direction of the gate lines or to a direction orthogonal to the extending direction of the gate lines.

4. The display device driving method for driving the display device claimed in claim 2 , which inverts the voltage polarity of each pixel for every gate line, and inverts the polarity of each of the transmitted display data for every data line.

5. The display device driving method for driving the display device claimed in claim 2 , which does not invert the voltage polarity of each pixel for every gate line, but inverts the polarity of each of the transmitted display data for every data line.

6. The display device as claimed in claim 1 , wherein the pixels configuring the neighboring pixel pairs are arranged to be in a dot-symmetrical relation.

7. The display device as claimed in claim 1 , wherein a part of one of the pixels configuring the neighboring pixel pair, through which the pixel is connected to the data line, is placed on a side closer to the other pixel than the gate line.

8. The display device as claimed in claim 1 , wherein a display area of the pixel is in a substantially trapezoid shape.

9. The display device as claimed in claim 8 , wherein the pixel switch is disposed in an upper-bottom side of the trapezoid display area of the pixel.

10. The display device as claimed in claim 1 , wherein a storage capacitance for storing display data is provided to the pixel, and a storage capacitance line for connecting the storage capacitance of each pixel connects the storage capacitances of the pixels that are neighboring to each other in the extending direction of the gate lines.

11. The display device as claimed in claim 10 , wherein an intersection area between the storage capacitance line and the data line is arranged along the data line.

12. The display device as claimed in claim 1 , wherein every other gate line is connected to a gate line driving circuit disposed on both sides of a screen.

13. The display device as claimed in claim 1 , wherein the optical element distributes the light emitted from each pixel along the extending direction of the gate lines.

14. A display device driving method for driving the display device claimed in claim 1 , which inverts voltage polarities of each of the pixels by every two gate lines.

15. A display device driving method for driving the display device claimed in claim 1 , which scans the gate lines by every other line.

16. The display device driving method for driving the display device as claimed claim 15 , which inverts polarity of each transmitted display data for every odd-numbered gate line and by every two data lines, and inverts polarity of each transmitted display data for every even-numbered gate line and by every two data lines, wherein the polarities of the display data transmitted to the data lines become shifted for one data line between a state where the odd-numbered gate line is selected and a state where the even-numbered gate line is selected.

17. A terminal device, comprising the display device claimed in claim 1 .

18. The terminal device as claimed in claim 17 , which is a portable telephone, a personal information terminal, a personal television set, a game machine, a digital camera, a video camera, a video player, a notebook-type personal computer, a cash dispenser, or a vending machine.

19. A display panel, comprising: data lines for supplying display data to respective pixels; pixel switches for transmitting display data signals from the data lines to the pixels; gate lines for controlling the pixel switches, wherein a neighboring pixel pair arranged with the gate line interposed therebetween is controlled by the gate line that is provided between those pixels, each of the pixels configuring the neighboring pixel pair is connected to the data line different from each other, and each of the neighboring pixel pairs neighboring to each other in an extending direction of the gate lines is connected to the gate line different from each other.

20. The display panel as claimed in claim 19 , wherein, when arranging each of the pixels configuring the neighboring pixel pair vertically in top and bottom with a common gate line interposed therebetween, there are arranged the neighboring pixel pairs each having an upper-side pixel connected to a left-side data line and the neighboring pixel pairs each having an upper-side pixel connected to a right-side data line.